Abstract
Species differ in their susceptibility to radiation because of differences in their ability to sustain toxic and genetic effects caused by radiation. We censused breeding birds in Fukushima Prefecture, Japan, during 2011-2014 to test whether the abundance and diversity of birds became increasingly negatively affected by radiation over time. The abundance of birds decreased with increasing levels of background radiation, with significant interspecific variation. Even though levels of background radiation decreased over time, the relationship between abundance and radiation became more negative over time. The relationship between abundance and radiation became less negative with increasing trophic levels. These findings are consistent with the hypothesis that the negative effects of radiation on abundance and species richness accumulate over time.
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Akimoto S (2014) Morphological abnormalities in gall-forming aphids in a radiation-contaminated area near Fukushima Daiichi: Selective impact of fallout? Ecol Evol 4:355–369
Bibby CJ, Hill DA, Burgess ND, Mustoe S (2005) Bird census techniques. Academic Press, London, UK
Blondel J, Ferry C, Frochot B (1970) La méthode des indices ponctuels d’abondance (I.P.A.) au des relevés d’avifaune par “stations d’ecoute”. Alauda 38:55–71
Boubriak II, Grodzinsky DM, Polischuk VP, Naumenko VD, Gushcha NP, Micheev AN, McCready SJ, Osborne DJ (2008) Adaptation and impairment of DNA repair function in pollen of Betula verrucosa and seeds of Oenothera biennis from differently radionuclide-contaminated sites of Chernobyl. Ann Bot 101:267–276
Dadachova E, Howell RW, Bryan RA, Frenkel A, Nosanchuck JD, Casadevall A (2004) Susceptibility of the human pathogenic fungi Cryptococcus neoformans and Histoplasma capsulatum to gamma-irradiation versus radioimmunotherapy with alpha- and beta-emitting radioisotopes. J Nuclear Med 45:313–320
Daly MJ (2009) A new perspective on radiation resistance based on Deinococcus radiodurans. Nature Rev Microbiol 7:237–245
del Hoyo J, Elliott A, Sagartal J (eds) (1992–2011) Handbook of the birds of the World. Lynx, Barcelona, Spain
Draper NR, Smith H (1981) Applied regression analysis, 2nd edn. John Wiley, New York, NY
Galván I, Bonisoli-Alquati A, Jenkinson S, Ghanem G, Wakamatsu K, Mousseau TA, Møller AP (2014) Chronic exposure to low-dose radiation at Chernobyl favors adaptation to oxidative stress in birds. Funct Ecol 28:1387–1403
Galván I, Mousseau TA, Møller AP (2011) Bird population declines due to radiation exposure at Chernobyl are stronger in species with pheomelanin-based coloration. Oecologia 165:827–835
Garamszegi LZ, Møller AP (2010) Effects of sample size and intraspecific variation in phylogenetic comparative studies: A meta-analytic review. Biol Rev 85:797–805
Garamszegi LZ, Møller AP (2011) Nonrandom variation in within-species sample size and missing data in phylogenetic comparative studies. Syst Biol in press. doi:10.1093/sysbio/syr060.
Ghiassi-Nejad M, Zakeri F, Assaei Kariminia A (2004) Long-term immune and cytogenetic effects of high level natural radiation on Ramsar inhabitants in Iran. J Environ Radioact 74:107–116
Hendry JH, Simon SL, Wojcik A, Sohrabi M, Burkart W, Cardis E, Laurier D, Tirmarche M, Hayata I (2009) Human exposure to high natural background radiation: What can it teach us about radiation risks? J Radiol Protect 29(2A):A29–A42
Hiyama A, Nohara C, Kinjo S, Taira W, Gima S, Tanahara A, Otaki JM (2012) The biological impacts of the Fukushima nuclear accident on the pale grass blue butterfly. Sci Rep 2:570
Hiyama A, Nohara C, Taira W, Kinjo S, Iwata M, Otaki JM (2013) The Fukushima nuclear accident and the pale grass blue butterfly: Evaluating biological effects of long-term low-dose exposures. BMC Evol Biol 13:168
Ishida K (2013) Contamination of wild animals: Effects on wildlife in high radioactivity areas of the agricultural and forest landscape. In: Nakanishi TM, Tanoi K (eds) Agricultural Implications of the Fukushima Nuclear Accident. Springer, Japan, pp 119–129
Kryshev I, Alexakhin R, Makhonko K (1992) Radioecological consequences of the Chernobyl accident. Nuclear Society, Moscow, Russia
Kryshev II, Ryabov IN (1990) About the efficiency of trophic level in the accumulation of Cs-137 in fish of the Chernobyl NPP cooling pond. In: Ryabov IN, Ryabtsev IA (eds) Biological and radioecological aspects of the consequences of the Chernobyl accident. USSR Academy of Sciences, Moscow, pp 116–121
Lubin J, Boice J Jr (1997) Lung cancer risk from residential radon: meta-analysis of eight epidemiologic studies. J Natl Cancer Inst 89:49–57
Møller AP (1983) Methods for monitoring bird populations in the Nordic countries. Nordic Council of Ministers, Oslo, Norway
Møller AP, Hagiwara A, Matsui S, Kasahara S, Kawatsu K, Nishiumi I, Suzuki H, Ueda K, Mousseau TA (2012) Abundance of birds in Fukushima as judged from Chernobyl. Environ. Poll. 164:36–39
Møller AP, Mousseau TA (2007a) Species richness and abundance of birds in relation to radiation at Chernobyl. Biol Lett 3:483–486
Møller AP, Mousseau TA (2007b) Determinants of interspecific variation in population declines of birds from exposure to radiation at Chernobyl. J Appl Ecol 44:909–919
Møller AP, Mousseau TA (2011a) Efficiency of bio-indicators for low-level radiation under field conditions. Ecol Indicators 11:424–430
Møller AP, Mousseau TA (2011b) Conservation consequences of Chernobyl and other nuclear accidents. Biol Cons 114:2787–2798
Møller AP, Mousseau TA (2013) Low-dose radiation, scientific scrutiny, and requirements for demonstrating effects. BMC Biol 11(92)
Møller AP, Surai PF, Mousseau TA (2005) Antioxidants, radiation and mutation in barn swallows from Chernobyl. Proc R Soc Lond B 272:247–253
Murase K, Murase J, Horie R, Endo K (2015) Effects of the Fukushima Daiichi nuclear accident on goshawk reproduction. Sci Rep (in press)
Nadson GA, Philippov GS (1925) Influence des rayon’s x sur la sexualité et la formation des mutantes chez les champignons inferieurs (Mucorinées). C R Soc Biol Filiales 93:473–474
Neter J, Kutner MH, Nachtsheim CJ, Wasserman W (1996) Applied linear statistical models. Irwin, Chicago, IL
Ochiai K, Hayama S, Nakiri S, Nakanishi S, Ishii N, Uno T, Kato T, Konno F, Kawamoto Y, Tsuchida S, Omi T (2014) Low blood cell counts in wild Japanese monkeys after the Fukushima Daiichi nuclear disaster. Sci Rep 4:5793
SAS Institute Inc (2012) JMP. SAS Institute Inc., Cary, NC
Smith MH, Oleksyk TK, Tsyusko O (2002) Effects of trophic position and ecosystem type on the form of the frequency distribution of radiocesium at Chornobyl and nuclear sites in the United States. Proc Int Symp: Transfer of Radionuclides in Biosphere: Prediction and Assessment, December 18–19, 2002. Mito, Japan, pp 37–48
Sokal RR, Rohlf FJ (1995) Biometry. W. H, Freeman, New York
Voitovich AM, Afonin VYu (2002) DNA damages and radionuclide accumulation in wild small vertebrates. In: Environmental Radioactivity in the Arctic and Antarctic, Proceedings of the 5th International Conference, St. Petersburg, 16-20 June 2002, Russia, pp. 340–343
Voříšek P, Klvanova A, Wotton S, Gregory RD (2010) A best practice guide for wild bird monitoring schemes. European Union, Bruxelles, Belgium
Yakushev BI, Budkevich TA, Zabolotny AI, Mironov V, Kudryashov VP (1999) Contamination of vegetation in Belarus by transuranium radionuclides due to Chernobyl NPP accident. In: Goossens LHJ (ed) Proc 9th Ann Conf “Risk analysis: Facing the new millennium”, October 10–13, 1999. Delft University Press, Rotterdam, pp 841–844
Yamashiro H, Abe Y, Fukuda T, Kino Y, Kawaguchi I, Kuwahara Y, Fukumoto M, Takahashi S, Suzuki M, Kobayashi J, Uematsu E, Tong B, Yamada T, Yoshida S, Sato E, Shinoda H, Sekine T, Isogai E, Fukumoto M (2013) Effects of radioactive caesium on bull testes after the Fukushima nuclear plant accident. Sci Rep 3:2850
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Møller, A.P., Nishiumi, I. & Mousseau, T.A. Cumulative effects of radioactivity from Fukushima on the abundance and biodiversity of birds. J Ornithol 156 (Suppl 1), 297–305 (2015). https://doi.org/10.1007/s10336-015-1197-2
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DOI: https://doi.org/10.1007/s10336-015-1197-2